2020
DOI: 10.1002/acm2.13035
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Preliminary Investigation into the regeneration of luminescent signal in nanoDot OSLDs

Abstract: Purpose Reuse of optically stimulated luminescent dosimeters (OSLDs) has been suggested in prior works by using a light source to erase the dosimeter’s signal (optical bleaching) and recharacterizing the dosimeter’s sensitivity based on its dose history. However, depending on the wavelength of the bleaching source and the dosimeter’s dose history this may be problematic due to the presence of deep dosimetric traps and the phototransfer mechanism observed in Al2O3. In this work we examine the regeneration of si… Show more

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Cited by 4 publications
(5 citation statements)
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“…Examining the dose-response curves for OSLDs, TLDs, and Gafchromic film at the extended dose range reveal that the sensitivity of OSLDs and TLDs increases with accumulated dose owing to the filling of the deep traps with increasing dose, whereas the sensitivity of Gafchromic film decreases owing to saturation in the amount of radiation-induced polymers as a function of dose. 14,20,39 Here we found that the dose response of OSLDs and TLDs irradiated under UHDR beamlines was within ± 4% of their expected values calibrated under reference conditions in CONV beamlines, which is well within the uncertainty established for OSLDs and TLDs published in TG-191, 20 regardless of the DPP, mean dose rate, or instantaneous dose rate investigated. This is especially important given that the uncertainty of film has been reported to be 2−5% 1,47,48 in FLASH dosimetry, with an overall uncertainty of EBT3 film in UHDR beams of < 4% (k = 2), 30 with the quality of dose-rate independence.…”
Section: Discussionsupporting
confidence: 84%
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“…Examining the dose-response curves for OSLDs, TLDs, and Gafchromic film at the extended dose range reveal that the sensitivity of OSLDs and TLDs increases with accumulated dose owing to the filling of the deep traps with increasing dose, whereas the sensitivity of Gafchromic film decreases owing to saturation in the amount of radiation-induced polymers as a function of dose. 14,20,39 Here we found that the dose response of OSLDs and TLDs irradiated under UHDR beamlines was within ± 4% of their expected values calibrated under reference conditions in CONV beamlines, which is well within the uncertainty established for OSLDs and TLDs published in TG-191, 20 regardless of the DPP, mean dose rate, or instantaneous dose rate investigated. This is especially important given that the uncertainty of film has been reported to be 2−5% 1,47,48 in FLASH dosimetry, with an overall uncertainty of EBT3 film in UHDR beams of < 4% (k = 2), 30 with the quality of dose-rate independence.…”
Section: Discussionsupporting
confidence: 84%
“…The first equation used for OSLDs and TLDs is a linear equation that is bounded by the signal (kPMT or μC/g) measured at 2 Gy, which is below the threshold for supralinearity measured in both dosimeters. 20,[38][39][40][41] We developed two separate equations by using bounds for the measured signal ranging from 2 to 13 Gy and from 13 to 40 Gy to ensure greater accuracy in parsing the delivered dose within a narrower range of values. These higher doses were investigated because of their relevance in stereotactic RT and FLASH RT, where high-dose single fractions (≥ 8 Gy) are routinely delivered.…”
Section: Discussionmentioning
confidence: 99%
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“…Moreover, there are several advantages of OSLDs over other types of dosimeters, including high sensitivity, reproducibility, and tissue equivalence , Dunn et al 2013, Hoshida et al 2019. They are also re-usable, easy-to-implement (Liu 2020) and relatively cost-effective, i.e. good candidates for dosimetry QA checks, remote dosimetry and audit tests (Jahn et al 2014, Hoshida et al 2019, Kido et al 2023.…”
Section: Introductionmentioning
confidence: 99%